Researchers have pioneered the use of parallel computing on graphics cards to simulate acoustic turbulence. This type of ...

propagation of electro-magnetic waves along periodic circuits and filtering properties of such systems.

Imagine standing by a lake and throwing a stone into the water. Waves spread out in circular patterns and can reflect at ...

During her time at the Wavelab, Yuning's research topic was wave engineering in phononic structures with periodic/quasiperiodic configurations. Her work involved topological states in the platform of ...

This is due to the layer of air next to the ground being stationary. A wind gradient results in sound waves propagating upwind being 'bent' upwards and those propagating downwind being 'bent' ...

During his time at the WaveLab, Curtis explored novel acoustic wave phenomena. For example, he examined acoustic non-Hermitian systems and how they could be realized through feedback mechanisms or ...

The resulting oscillations exert a force on the electrons in graphene. This generates a circular electron density wave that ...

These waves are higher frequency than surface waves. P waves are also known as compressional waves, because they push and pull. Particles subjected to a P wave move in the same direction that the wave ...